Application of computer vision for off‐highway vehicle route detection: A case study in Mojave desert tortoise habitat

• 出版年: Remote Sensing in Ecology and Conservation
• 主要な著者: Alexander J. Robillard, Madeline Standen, Noah Giebink, Mark Spangler, Amy C. Collins, Brian Folt, Andrew Maguire, Elissa M. Olimpi, Brett G. Dickson
• フォーマット: 論文
• 言語: 英語
• 出版事項: Wiley 2025-10-01
• 主題: geospatial analysis; Gopherus agassizii; machine learning; Mojave Desert; off‐highway vehicles; recreation
• オンライン･アクセス: https://doi.org/10.1002/rse2.70004

Abstract Driving off‐highway vehicles (OHVs), which contributes to habitat degradation and fragmentation, is a common recreational activity in the United States and other parts of the world, particularly in desert environments with fragile ecosystems. Although habitat degradation and mortality from the expansion of OHV networks are thought to have major impacts on desert species, comprehensive maps of OHV route networks and their changes are poorly understood. To better understand how OHV route networks have evolved in the Mojave Desert ecoregion, we developed a computer vision approach to estimate OHV route location and density across the range of the Mojave desert tortoise (Gopherus agassizii). We defined OHV routes as non‐paved, linear features, including designated routes and washes in the presence of non‐paved routes. Using contemporary (n = 1499) and historical (n = 1148) aerial images, we trained and validated three convolutional neural network (CNN) models. We cross‐examined each model on sets of independently curated data and selected the highest performing model to generate predictions across the tortoise's range. When evaluated against a ‘hybrid’ test set (n = 1807 images), the final hybrid model achieved an accuracy of 77%. We then applied our model to remotely sensed imagery from across the tortoise's range and generated spatial layers of OHV route density for the 1970s, 1980s, 2010s, and 2020s. We examined OHV route density within tortoise conservation areas (TCA) and recovery units (RU) within the range of the species. Results showed an increase in the OHV route density in both TCAs (8.45%) and RUs (7.85%) from 1980 to 2020. Ordinal logistic regression indicated a strong correlation (OR = 1.01, P < 0.001) between model outputs and ground‐truthed OHV maps from the study region. Our computer vision approach and mapped results can inform conservation strategies and management aimed at mitigating the adverse impacts of OHV activity on sensitive ecosystems.